CN219523215U - Steering device of pagoda paper tube coiling machine - Google Patents

Abstract

The utility model belongs to the technical field of pagoda paper tube processing equipment, and particularly relates to a steering direction device of a pagoda paper tube coiling machine, which comprises a turnover part and a conveying part; the turnover part comprises a turnover bracket, a turnover motor and a rotating wheel; the turnover support is arranged on the supporting plate, and a rotating wheel is rotatably arranged at the upper part of the turnover support; the overturning motor is fixedly arranged on the pagoda paper tube coiling machine, and the output end of the overturning motor is coaxially and drivingly connected with the rotating shaft of the rotating wheel; a plurality of connection pipe brackets for supporting and connecting the produced paper pipes are uniformly arranged around the rotating wheel; the conveying part comprises a conveying bracket, a conveying belt and a conveying motor; the conveying support is arranged on the supporting plate, the conveying belt is rotatably arranged on the conveying support and positioned below the connecting pipe bracket after the paper pipe is connected, and the conveying motor is fixedly arranged on the pagoda paper pipe coiling machine and is in driving connection with the conveying belt.

Description

Steering device of pagoda paper tube coiling machine

Technical Field

The utility model relates to the technical field of pagoda paper tube processing equipment, in particular to a steering device of a pagoda paper tube coiling machine.

Background

The pagoda paper tube is a frustum-shaped tubular object formed by bonding paper with glue, and is specially used as a winding core tube of yarn. The main production process comprises the steps of paper feeding, printing, internal grinding and external grinding, sizing, cutting of paper tube base paper, tube rolling, drying, hole opening, napping and line pressing, cutting and sorting packaging. The paper tube needs to be conveyed onto the drying room hanging frame by the conveying belt between the paper tube and the drying process, when the paper tube is ejected out by the paper tube rolling equipment after being formed, the small opening of the paper tube faces the hanging frame, the paper tube needs to be turned by 180 degrees by the conveying belt to face the hanging frame, the large opening of the paper tube faces the hanging frame, the length of the conveying belt is long for keeping the overturning stability of the paper tube in the process, and the distance between the paper tube rolling equipment and the drying room is widened, so that the occupied area of a single equipment is large, and the space of a factory building is wasted.

Disclosure of Invention

The utility model aims at the problems in the prior art, and specifically designs the direction-turning device of the paper tube coiling machine of the pagoda paper tube, so that the angle of the paper tube can be conveniently and quickly turned in the production process.

In order to achieve the above purpose, the utility model provides a turning direction device of a pagoda paper tube coiling machine, which comprises a turning part and a conveying part; the overturning part and the conveying part are arranged on a supporting plate, and the supporting plate is fixedly connected with the pagoda paper tube coiling machine and is kept horizontal;

the turnover part comprises a turnover bracket, a turnover motor and a rotating wheel; the turnover support is arranged on the supporting plate, and a rotating wheel is rotatably arranged at the upper part of the turnover support; the center height of the rotating wheel is matched with the height of the paper tube ejected by the pagoda paper tube rolling machine, the overturning motor is fixedly arranged on the pagoda paper tube rolling machine, and the output end of the overturning motor is coaxially and drivingly connected with the rotating shaft of the rotating wheel;

a plurality of connection pipe brackets for supporting and connecting the produced paper pipes are uniformly arranged around the rotating wheel;

the conveying part comprises a conveying bracket, a conveying belt and a conveying motor; the conveying support is arranged on the supporting plate, the conveying belt is rotatably arranged on the conveying support and positioned below the connecting pipe bracket after the paper pipe is connected, and the conveying motor is fixedly arranged on the pagoda paper pipe coiling machine and is in driving connection with the conveying belt.

Further, each connecting pipe bracket is composed of two opposite arc-shaped raw sheets, the two arc-shaped raw sheets are semi-enclosed to form a conical cavity, and the gradient of a bus of the conical cavity is the same as that of a bus of the paper pipe; the diameter of the largest cross section of the conical cavity is the same as the cross section diameter of the middle lower part of the paper tube.

Further, the conveying part further comprises a poking piece, one end of the poking piece is fixedly arranged on the conveying bracket and extends to the direction of the turnover part; the width of the poking piece is smaller than the distance between every two arc-shaped original pieces, and the poking piece extending to the other end of the turnover part is positioned between the root of the connecting pipe bracket and the top end of the paper pipe in the connecting pipe bracket in the horizontal direction.

Further, the leftmost tangent point of the conveyor belt is in contact with the bottom end of the paper tube after being supported and turned.

In summary, the utility model has the following advantages and beneficial technical effects:

the turning direction device of the pagoda paper tube coiling machine can turn paper tubes by 180 degrees in the shortest distance, reduces the occupied area of equipment and increases the space utilization rate of a factory building.

The paper tube turning direction device provided by the utility model has ingenious structure, automatically enables the paper tube to drop onto the conveyor belt from the connecting tube bracket through intermittent rotation of the motor and lifting action of the poking piece, and solves the problem that 180 degrees of turning is required between the process flow of tube coiling and drying.

Drawings

The foregoing and/or additional aspects and advantages of the utility model will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

FIG. 1 is a schematic front view of a turning direction device of a pagoda paper tube coiling machine of the utility model;

FIG. 2 is a schematic top view of a turning direction device of a pagoda paper tube coiling machine of the present utility model;

FIG. 3 is a three-dimensional schematic diagram of a turning direction device of a pagoda paper tube coiling machine of the utility model;

FIG. 4 is an enlarged view of a portion of FIG. 1 at I;

fig. 5 is a partial enlarged view at M in fig. 3.

The reference numerals in the drawings are:

1-turning over the bracket; 2-turning over the motor; 3-a rotating wheel; 31-a nipple carrier; 4-transferring the stent; 5-a conveyor belt; 6-a conveying motor; 7-pulling sheets; 8-paper tube; 9-pagoda paper tube coiling machine.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-5:

the embodiment 1 discloses a turning direction device of a pagoda paper tube rolling machine, which comprises a turning part and a conveying part as shown in fig. 1 and 3; the overturning part and the conveying part are integrally arranged on a supporting plate, and the supporting plate is fixedly connected with the pagoda paper tube coiling machine and is kept horizontal; the turnover part comprises a turnover bracket 1, a turnover motor 2 and a rotary wheel 3; the turnover support 1 is welded on the support plate, and a rotating wheel 3 is rotatably arranged at the upper part of the turnover support 1; the rotary wheel 3 is evenly equipped with eight around being used for holding up the takeover bracket 31 of the paper tube 8 that produces, the high looks adaptation of paper tube 8 is popped out to the high and the pagoda paper tube reelpipe machine of rotary wheel 3 for when the paper tube 8 is popped out to the pagoda paper tube reelpipe machine, paper tube 8 should accurately fall into takeover bracket 31, upset motor 2 fixed mounting is on the pagoda paper tube reelpipe machine, the output of upset motor 2 is connected with the coaxial drive of the rotation axis of rotary wheel 3, and the rotatory frequency of upset motor and the frequency looks adaptation that the pagoda paper tube reelpipe machine popped out paper tube 8.

As shown in fig. 1, 2 and 3, the conveying section includes a conveying bracket 4, a conveying belt 5 and a conveying motor 6; the conveying support 4 is arranged on the supporting plate, the conveying belt 5 is rotatably arranged on the conveying support 4 and positioned below the connecting pipe bracket 31 behind the supporting paper pipe 8, and the conveying motor 6 is fixedly arranged on the pagoda paper pipe coiling machine and is in driving connection with the conveying belt 5.

As shown in fig. 3, 4 and 5, each connecting tube bracket 31 is composed of two opposite arc-shaped raw sheets, and the two arc-shaped raw sheets are semi-enclosed to form a conical cavity, and the slope of a bus of the conical cavity is the same as that of a bus of the paper tube 8; the diameter of the largest cross section of the conical cavity is the same as the cross section diameter of the lower middle part of the paper tube 8.

As shown in fig. 4, the conveying part further comprises a pulling piece 7, one end of the pulling piece 7 is fixedly arranged on the conveying bracket 4 by a screw and extends to the direction of the turnover part; the width of the plectrum 7 is smaller than the distance between every two arc former sheets, and when the swiveling wheel 3 rotates, the plectrum 7 can pass the takeover bracket 31, and the plectrum 7 stretches to the other end of upset portion be located between the root of takeover bracket 31 and the top of paper tube 8 in the takeover bracket 31 in the horizontal direction.

As shown in fig. 4, preferably, the leftmost tangent point of the conveyor belt 5 is in contact with the bottom end of the paper tube 8 after being docked and turned over, so that the paper tube 8 can be conveyed away at the moment of contact with the conveyor belt 5.

The utility model relates to a steering direction device of a pagoda paper tube coiling machine, which comprises the following working principles:

after finishing the pipe coiling procedure of the paper pipe 8, the pagoda paper pipe coiling machine ejects the paper pipe 8 into the conical cavity of the pipe coiling bracket 31, the overturning motor 2 rotates at the frequency of the adaptation, the paper pipe 8 rotates 180 degrees to the conveying part, the paper pipe 8 firstly contacts one end, which is closer to the rotating wheel 3, of the shifting sheet 7, at the moment, the shifting sheet lifts the paper pipe 8, and simultaneously, the paper pipe 8 passes through the pipe coiling bracket 31, and the conveying belt 5 conveys the paper pipe 8 to the working area of the next procedure under the continuous rotation driving of the conveying motor 6.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (4)

1. The utility model provides a pagoda paper tube rolling machine turns over direction device which characterized in that: comprises a turnover part and a conveying part; the overturning part and the conveying part are arranged on a supporting plate, and the supporting plate is fixedly connected with the pagoda paper tube coiling machine and is kept horizontal;

the turnover part comprises a turnover bracket (1), a turnover motor (2) and a rotating wheel (3); the turnover support (1) is arranged on the supporting plate, and a rotating wheel (3) is rotatably arranged at the upper part of the turnover support (1); the center height of the rotating wheel (3) is matched with the height of a paper tube (8) ejected by the paper tube rolling machine of the pagoda paper tube, the overturning motor (2) is fixedly arranged on the paper tube rolling machine of the pagoda paper tube, and the output end of the overturning motor (2) is coaxially and drivingly connected with the rotating shaft of the rotating wheel (3); the rotation frequency of the overturning motor (2) is matched with the frequency of the paper tube (8) ejected by the paper tube coiling machine of the pagoda paper tube;

a plurality of connection pipe brackets (31) for supporting and connecting the produced paper pipes (8) are uniformly arranged around the upper periphery of the rotating wheel (3);

the conveying part comprises a conveying bracket (4), a conveying belt (5) and a conveying motor (6); the conveying support (4) is installed on the supporting plate, the conveying belt (5) is rotatably installed on the conveying support (4) and located below the connecting pipe bracket (31) behind the supporting paper pipe (8), and the conveying motor (6) is fixedly installed on the pagoda paper pipe coiling machine and is in driving connection with the conveying belt (5).

2. The steering device of the pagoda paper tube coiling machine according to claim 1, wherein: each connecting pipe bracket (31) is composed of two opposite arc-shaped raw sheets, the two arc-shaped raw sheets are semi-enclosed to form a conical cavity, and the gradient of a bus of the conical cavity is the same as that of a bus of the paper pipe (8); the diameter of the largest cross section of the conical cavity is the same as the cross section diameter of the middle lower part of the paper tube (8).

3. The steering device of the pagoda paper tube coiling machine according to claim 2, wherein: the conveying part further comprises a poking piece (7), and one end of the poking piece (7) is fixedly arranged on the conveying bracket (4) and extends to the direction of the turnover part; the width of the poking piece (7) is smaller than the distance between every two arc-shaped original pieces, and the poking piece (7) extends to the other end of the overturning part and is positioned between the root of the connecting pipe bracket (31) and the top end of the paper pipe (8) in the connecting pipe bracket (31) in the horizontal direction.

4. A pagoda paper tube rolling machine turning direction device according to claim 3, characterized in that: the leftmost tangent point of the conveyor belt (5) is contacted with the bottom end of the paper tube (8) which is in supporting connection and overturning.